高分子 Vol.62 No.1
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特集 若きリーダー達
トピックス COVER STORY: Topics and Products
方円の器に従わず
Conform to Its Shape
大越 研人
Kento OKOSHI
<要旨> This article is an overview of our investigations of smectic liquid crystal arrangements of rod-like helical polysilanes with narrow molecular weight distributions and their mixtures with different molecular weights. Some of the theoretically predicted molecular arrangements, e.g., the micro-segregated smectic phase with alternating thick and thin smectic layers rich in the long polymer and short polymer, respectively, were observed by synchrotron radiation small-angle X-ray scattering (SR-SAXS) and atomic force microscopy (AFM) observations on the thin film surface. The formation of these unusual molecular arrangements are entropically driven because these liquid crystal formations of non-polar homopolymers conform mainly to their molecular shapes, not their specific intermolecular interactions. The future investigation of the fabrication of metal nano-wire grid polarizers using the smectic phase as an template is also disscussed.
Keywords: Liquid Crystal / Smectic Phase / Helical Structure / Polysilane / Entropy-Driven / Alignment Layer / Wire Grid Polarizer
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バイオとグリーンで地方から世界へ
Go for a World-Leading Group in the Fields of Biomaterials and Green Technologies located at a Vibrant Rural University
福島 和樹
Kazuki FUKUSHIMA
<要旨> I describe here what I would like to do with an own group recently launched by exploiting my experience and expertise that I have acquired for the last four and a half years in the U. S.. For research, I will work on exploring organic catalysts to enable ring-opening polymerization of lactide in bulk and to show stereoselectivity at ambient condition. Development of functional biodegradable polymers will also be addressed for application in bulk biomaterials such as scaffolds for regenerative medicine. My research style will be oriented toward emphasizing patents and collaboration with industries not only for commercialization but also for the local community based on my past work experience. For education, especially in English studies, I would like to have students learn how to communicate and socialize with people rather than just how to speak English. Finally, I would like to try many things from research to social activities with enthusiasm and ambition leading my small but promising group.
Keywords: Polymer Synthesis / Ring-Opening Polymerization / Biodegradable Polymers / Organic Catalysts / Self-Assembly
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一歩一歩、固めて作る超分子のホスト
Designing Supramolecular Hosts by In-situ Polymerization
石田 康博
Yasuhiro ISHIDA
<要旨> In supramolecular liquid crystals, molecules are confined in peculiar environments, where ordered alignment and certain mobility are realized at the same time. Considering these characteristics, the idea of multi-component liquid crystal as zeolite analogue seems quite reasonable. Taking advantages of their characteristic properties, such as structural order, certain mobility of molecules, and easy access to various components, we have succeeded in applying two-component liquid crystals as chiral organic frameworks for selection, sensing, and transformation of small organic substrates.
Keywords: Liquid Crystals / Supramolecular Chemistry / Cross-Linking / Template Reactions / Host-Guest Chemistry / Chiral Recognition
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ユニークな性状をもつナノバイオマテリアルの構築と医用展開
Development of Nanobiomaterials with Unique Properties and Their Biomedical Applications
岡村 陽介
Yosuke OKAMURA
<要旨> Much attention has recently been focused on the research field of nanotechnology. Nano-sized structures with a large specific surface area (m2/g) in devices lead to high reaction efficiencies on the interfaces. As a result, size, weight and cost of the devices are reduced. For example, ultra-thin films (nanosheets) have been developed as novel nanoseparation membranes and flexible nanosensors for electrochemical and photochemical applications. However, it may be hard to use them for biomedical applications due to complicated preparative methods. In our laboratory, we develop innovative and unique nanobiomaterials for medical applications by simple methodologies based on macromolecular chemistry and molecular assembly. Especially, we investigate the relationship between properties of the nanobiomaterials (shape, size, thickness, interface and viscoelasticity etc.) and their potential abilities.
Keywords: Macromolecular Chemistry / Molecular Assembly / Nanobiomaterials / Drug Delivery / Nanosheets / Nanoparticles
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40代を迎えて
Prospective Research Views in My 40s
竹内 大介
Daisuke TAKEUCHI
<要旨> Our recent research results on controlled synthesis of polymers with cyclolalkane groups by transition metal catalysts, novel dinuclear transition metal catalysts for olefin polymerization, and synthesis of novel cyclic oligomers and polymers are briefly summarized. Prospective research views based on these results are also mentioned.
Keywords: Cyclopolymerization / Cycloolefin Polymers / Transition Metal Catalysts / Olefin Polymerization / Cyclic Oligomers
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新しいモノには福来たる
New Materials Should Possess New and Unique Functions
中野 幸司
Koji NAKANO
<要旨> I have started to manage a laboratory at Tokyo University of Agriculture and Technology in 2012. My main research topic is the development of new high-performance organic materials using sophisticated organic synthesis. In here, I will describe my research policy as a principal investigator.
Keywords: Organic Materials / Organic Synthesis / π-Conjugated Molecule / Polymerization Catalyst
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高分子化学を何に使うのか?
How do We Use Polymer Chemistry?
高須 昭則
Akinori TAKASU
<要旨> We research new organic materials using polymer chemistry. Concept of our new research group is “Polymer Chemistry for ???”, in which ??? results from discussions with students and collaborators. Now, our group consists of 3 divisions; environmentally benign polymer synthesis, smart coating for bone regeneration, and design of new inducer of RNA transcription for the genetically-modified Escherichia coli. We also welcome new members having interest in organic chemistry, environmental chemistry, and biotechnology.
Keywords: Polymer Chemistry / Polyester / Room-Temperature Polycondensation / Bone-Regeneration / Smart Coating / Glycoconjugate / Biosynthesis / Biotechnology
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界面シナジーによる高分子複合体の物性制御
Physical Properties of Polymer Composites Controlled by Interfacial Synergy
鳥飼 直也
Naoya TORIKAI
<要旨> The physical properties and structures of polymer composites are examined to control them using interfacial synergy produced at the involved material interface. At present, the polymer composites with solid particles and the composite polymer thin films on flat substrates are studied as a main research subject. In this study, the polymer physical and chemical adsorption on the solid particles or flat substrates is utilized to produce interfacial synergy in each system, since the polymer adsorption could produce a great variety in the chain conformation, surface coverage, adsorbed amount, etc., of the polymer adsorbed at the interface. The physical properties of these polymer composites are investigated by producing different situation in interfacial properties with the adsorbed polymer. Moreover, the up-to-date scattering techniques with neutron and synchrotron X-rays are applied for structural observation on these polymer composites to understand their physical properties at the molecular level.
Keywords: Interfacial Synergy / Soft-Matter Composite / Polymer Adsorption / Solid Particle / Flat Substrate / Polymer Composite / Polymer Thin Film / Neutron and X-Ray Scattering
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面白いキラル高分子の開発を目指して
Toward the Development of Fascinating Chiral Polymers
前田 勝浩
Katsuhiro MAEDA
<要旨> My research interest has been engaged by chiral polymers, especially helical polymers, since I started my career as a researcher. In this essay, I would like to describe my present works and my future aspirations.
Keywords: Chiral Polymer / Helix / Amplification / Memory / Polymer Solar Cell
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なせばなるなさねばならぬ研究
Heart of Study on Synthetic Polymer Chemistry
工藤 宏人
Hiroto KUDO
<要旨> Research of the Kudo Group in Kansai University focuses on the synthesis of novel functional materials and refining their physical properties. The synthesis of non-linear polymers such as hyperbranched polymers, graft polymers, cyclic polymers, and star-shaped polymers and their physical properties are examined. Furthermore, new dynamic covalent chemistry systems are also examined for the synthesis of three dimensional cage molecules. The application for UV-curing materials, high-resolution resist materials, high- and low-refractive index materials, and refractive-index change materials are investigated using various synthesized functional polymers.
Keywords: Synthesis / Polymer / Dynamic Covalent Chemistry / Resisit / Refractive-Index / UV-Curing
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高分子物性基礎論のさらなる発展を目指して
Towards Further Development of Fundamental Research on Polymer Physics
古賀 毅
Tsuyoshi KOGA
<要旨> In this article, I first report my research experience on polymer physics. Then, I describe future research plans of my research group on the flow properties of associating polymers, the physical properties of gels, and the structure formation of block copolymers. Finally, I also discuss the possibility of novel statistical-mechanical formalism for polymeric systems including atomistic details.
Keywords: Polymer Physics / Statistical Mechanics / Computer Simulation / Phase Separation / Rheology / Associating Polymers / Physical Gels / Block Copolymers
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常識を打ち破る素人考え
Layman's Ideas that Break Common Sense
松浦 和則
Kazunori MATSUURA
<要旨> I moved as a full professor to Tottori University at 1st April 2012, and started my new laboratory with five excellent students. My previous investigations are based on layman’s ideas, that broke scientific common sense. I would like to pioneer in a novel field of biochemistry such as molecular robotics and synthetic biology in the near future based on other “layman's idea”.
Keywords: Layman’s Idea / Synthetic Virus / Molecular Robotics / Synthetic Biology
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バイオミメティクス材料の新たなステップ
Design and Synthesis of Well-Defined Glycopolymers for the Control of Biological Functionalities
三浦 佳子
Yoshiko MIURA
<要旨> Polymers with molecular recognition abilities are investigated. The polymers with pendant saccharides, called “glycopolymers”, have been reported to show the strong molecular recognition abilities to the sugar recognition protein due to the multivalent effects. In order to develop the glycopolymers with higher functionalities, I have focused on the polymer properties. The glycopolymers are prepared with living radical polymerization, and the molecular recognition abilities are able to be tuned by molecular weight and sugar densities. The hybrid glycopolymers via living radical polymerization are able to be applied to biosensors and bioseparation. In addition, the molecular recognitions are also investigated with polymer nanoparticles. In the polymer nanoparticles, the 3D-structure and physical properties are facilely controlled, and not only saccharide structure but also polymer properties are shown to be important in molecular recognition abilities. In the future experiment, the polymers with molecular recognition abilities will be investigated by featuring polymer techniques and properties.
Keywords: Molecular Recognition / Glycopolymer / Polymer Nanoparticle
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グローイングポリマー Polymer Science and I: A Personal Account
守 破 離
Shu Ha Ri
大坪 才華
Saika OTSUBO
<要旨> Research and development can be described in three stages “Shu Ha Ri”; learning the fundamentals, breaking the tradition, parting with the traditional wisdom. I want to create the “KAITEKI” society through science!
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高分子科学最近の進歩 Front-Line Polymer Science
ポリプロピレンの今
Polypropylene, Now and Then...
木全 修一・萩原 英昭
Shuich KIMATA, Hideaki HAGIHARA

<要旨> Thanks to excellent cost performance, easy to mold, light weight (low density) and so on, we can see polypropylene everywhere as wide application, so polypropylene is the one of the most familiar material in all kind of polymers. In this paper, current situation of polypropylene in world market as well as of history and current movement in R&D were reviewed. Even though polypropylene is a commodity material today, technologies are still growing up with step by step effort of researchers.
Keywords: Polypropylene / Globalization / Technology Competitiveness / Mechanical Property / Structure Control / Crystal / Amorphous / Free Volume

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